This lesson plan teaches how to select the landing site for a planetary surface investigation, using the 5E learning cycle. Students will be able to determine a landing site for their Mars rover; work with their team to summarize information and...(View More) identify important details in non-fiction writing; research Gale Crater through an online interactive module; use Google Earth Mars to learn about Mars surface features; gather and analyze data to conduct a scientific experiment; collect and record data in a science notebook to draw logical and scientific conclusions; define and identify the role of controls and variables in teams’ scientific or technical questions; and differentiate between weather and climate. The lesson plan has a number of appendices, including standards alignment. This is Lesson 8 of the elementary school version of the 6 week Mars Rover Celebration curriculum.(View Less)

This series of learning modules is designed for adaptation in an introductory Earth science or planetary science course. The modules actively engage students through Mars remote-sensing data and Earth-based analogs to understanding Mars geology....(View More) Interviews with planetary scientists and geologists present current issues in planetary sciences.(View Less)

This gallery contains a selection of images of the cryosphere - particularly glaciers. Images are provided from a range of Earth-observing satellites as well as on the ground photographs. SciJinks is a joint NASA/NOAA educational website targeting...(View More) middle school-aged children and their educators. It explores weather and Earth science through articles, videos, images, and games.(View Less)

This article explores the hazards of volcanic ash plumes. SciJinks is a joint NASA/NOAA educational website targeting middle school-aged children and their educators. It explores weather and Earth science through articles, videos, images, and games.

This gallery shows a selection of striking Terra and Landsat images of volcanoes. SciJinks is a joint NASA/NOAA educational website targeting middle school-aged children and their educators. It explores weather and Earth science through articles,...(View More) videos, images, and games.(View Less)

Students will be introduced to the causes, locations, and hazards of landslides, as well as the role of satellite observations in predicting and studying them. To begin, students investigate the amount of precipitation sufficient to cause a...(View More) landslide in two different mediums (soil and sand), then use their findings in follow-up activities. After the lab, students will think about how rain information can be collected, especially via satellites, to model where landslides will occur. Finally, students will look at areas currently at risk of landslides and research landslide hazards and how to prepare for a landslide event, and create a public service announcement sharing that information. This lesson uses the 5E instructional model. All background information, student worksheets and images/photographs/data are included in these downloadable sections: Teacher’s Guide, Student Capture Sheet and Lab Instructions and PowerPoint Presentation.(View Less)

This investigation is based on the GISP2 H-core data collected in 1992 adjacent to the GISP2 Greenland summit drill site. Students examine the seasonal/annual nitrate record and use information from known volcanic eruptions to date the unique...(View More) signature of the Icelandic volcanoes. Data is also provided for known volcanic eruptions from other latitudes which can be used throughout the activity to date major conductivity spikes to further refine the time locations. Educators can use the investigation as an application of absolute and relative dating activity (a skill taught within many science disciplines). It can also be used as an application of the cryosphere and ice cores, atmospheric chemistry, meteorology and world-wide climate patterns, geophysics involving the polar regions and the Van Allen Radiation Belts, or astronomy and the impact of extraterrestrial materials on planet Earth.(View Less)

Unit one of the "Carbon Connections: The Carbon Cycle and the Science of Climate" curriculum introduces the role of carbon (as carbon dioxide) as an atmospheric indicator. Students examine the impact of geologic and climatic history on current...(View More) climate by using computer models, measurements and the geologic record of past climate indicators. The unit contains five lessons entitled: Carbon Fizz, Carbon from the Past, Carbon Forcing, Global Connections, and Core Connections. Each of the five lessons includes focus questions, hands-on activities, virtual field trips, and interactive models.(View Less)

This model demonstrates convection currents and uses water, food coloring, a cup of very hot water and a votive candle as heat sources. Movie clips of demonstration setup and convection in action are provided. This activity is supported by a...(View More) textbook chapter, What Heats the Earth's Interior?, part of the unit, Energy Flow, in Global Systems Science (GSS), an interdisciplinary course for high school students that emphasizes how scientists from a wide variety of fields work together to understand significant problems of global impact.(View Less)